Whizzer separator



Aug. 15, 1939. J. cRl'rEs.

wHIzzER SEPARATOR 2 Sheets-Sheet 2 Filed March 24, 1937 orneys Patented Aug. 15, 1939 UNITED srarss man WHIZZER ssrsas'roa Joe Crites,' Evanston, lill., assigner to Combustion Engineering Company, Inc., 'New Toi-k,

N. Y., a corporation of Delaware Application March 24, 1937, Serial No. 132,784

20 Claims.

rial to be graded is projected, preferably by cen-- trifugal force, into and across the path of a rising air current which picks up and carries away in suspension only the finer particles, whereas the heavier particles are rejected and gravitate out of the air stream into a collecting means.

This improved separator is of the general type disclosed and claimed in the patent to Walter M. Cook, 1,783,357, granted December 2, 1930. In this Cook separator a rotary d'eecting member or whizzer is mounted on a central vertical axis within the separation chamber and above the distributor so as to cut across the rising air stream. This rotary deflector or whizzer comprises a multiplicity of substantially radial blades or vanes the central portions of which are connected by an apron or disk so that air passages remain only between the outer portions of the vanes. The outer ends of the vanes closely about a cornealA deflecting member that extendsinwardly and upwardly from the enclosing casing so as to overlap the outer end portions of the vanes. The rotating vanes throw any heavier particles of the material that may tend torise in the air stream outwardly against the inclined lower surface of the stationary deflecting member from which they carom downwardly at the sides of the chamber and join the heavier material that initially gravitates out when. thrown from the distributor. The only material that can rise above these cooperating,defiecting members is sumciently fine to be carried in suspension in the rising air stream which finds its way between the rapidly rotating deflector vanes. Above the deecting members .and between them and the fan whichactuates the rising air stream is an inwardly extending annular partition wall which compels the air laden with finely divided material to flow' inwardly or counter to the outward throw imparted by centrifugal force to the material in the rotating air stream before it passes out and through the fan chamber. This permits a final sorting or separating action whereby any relatively heavy particles that may have passed up through the cooperating deflectors are thrown outwardly to a ledge above the fixed conical deflectin'g ring from which these particles fall back through the rotary deflector and are rejected along with the other tailings.

It has been found that a separator of this ,type

(orcos- 144).

is not as emcient as might be desired where vthe initial material to be separated is rather coarse, and the desired material is quite fine. For ex ample, Suppose a material having an initial fine-.g ness of through a 300 mesh screen is to. 5 increased/to a fineness vof 99.9% through a 300 mesh screen. In order to accomplish this ina l single separator of the type hereinabove 1de? 1 scribed it would be necessary to install ane) cessive number of whizzer blades, andan eff-' `10 cessive amount of the fine material will be re-v jected alongr with the tailings. However,.from an initial material having a flneness of 60% through a '300 mesh screen can .be obtained` a material that grades through a screen without an'excessive loss of fine' material in the tailings. By a subsequent similar separating process the 90% material can be similarly reduced to a. material that grades'99.9% through a 300 mesh screen. Instead of accomplishing 20 this result in two distinct separators, operated in series, or by passing the material twice through the same separator, the present improved apparatus performs this double separation process in a single separator and in a single continuous 25 operation. According to this invention, two sep; arate whizaer assemblies are superposed one above the other in the same separator, an intermediate centrifugal sorting space being vprovided between the two whizzers. The first separation 30 process is performed in the lower whizzer, and subsequent separation processes are carried out in the sorting space and in the'upper whizzer. This improved apparatus not only has the more apparent advantages ot economy in apparatus, 35 space required for the installations, and time saved in performing the entire separation in one continuous process. but it has also been discovered that there is a distinct increase in the eiliclency of the single separation process over the 40y use of two or more distinct separation processesl performed in different separators of this type or by passing the material more than once through the same apparatus. 'I'he reasonsfor this will be set forth moreI in which follows.

The general object of this invention is to provide an improved separator of the type briefly describedhereinabove and disclosed more in detail in the specifications which follow.

Another object is to provide a separator of this type comprising two superposed whizzer assemblies used in series within the same separating chamber.

Other objects and advantages pf this invention f 300 mesh l5 y detail in the description 45 will be n. re apparent from the following detailed description of one approved form of apparatus constructed and operating according to the principles of this invention.

In the accompanying drawings:

Fig. 1 is a central vertical section through the separator.

Fig. 2 is a horizontal section, on a somewhat larger scale, taken on the line 2-2 of Fig. l and looking upwardly in the direction of the arrows. y

Fig. 3 is a fragmentary view, partially in vertical section and partially in elevation, showing on a larger scale a portion of the whizzer or separating assembly so as to better illustrate the operation thereof.

The apparatus comprises in general an outer casing A, an inner casing B, a rotatable assembly comprising the distributing disk C and whizzer assemblies E and E positioned within the inner casing B, and the fan D positioned in the outer casing directly above the inner casing, the means F carried by the outer casing vfor rotatably suspending the rotary assembly, the means G for rotating this assembly, andl the means H for feeding the material to be graded onto the distributing disk C.

'I'he outer casing or housing A, which issuitably supported in a vertical position by means not here shown, comprises the top or cover wall I, an upper cylindrical shell portion indicated at 2 and 2', and a lower conical shell 3 which converges downwardly to the discharge opening 4 through which the nely divided material separated out by this air separation process i-s delivered. The inner casing B is positioned symmetrically about the same central vertical axis as the outer casing but spaced inwardly from the outer casing, and is supported from the outer casing by a plurality of struts or braces, one of which is indicated for example at 5. This inner casing comprises an upper cylindrical shell 6, and a downwardly converging lower conical portion consisting of the two overlapping conical shells I and 8. A discharge spout 9 leads out through one side of the outer conical shell 3 so as to discharge the heavier particles or tailings collected by the inner conical shell 8. The inner conical shells 'I and 8 are connected and spaced apart by-a plurality of vertically extending vanes or baffles I0, the spaces between these bailies permitting the air stream to return from the outer casing into the lower portion of the inner casing. The top of the inner casing B is partially closed by the inwardly extending annular horizontal partition `or flange II so that the air stream can only flow out through the rather large central opening I2. The fan D (hereinafter described more in detail)- causes an air circulation as indicated by the arrows in Fig. l, the air stream being drawn upwardly through the inner casing'B, out through the central opening I2, thence outwardly and downwardly through the outer shell A 'and through the annular passage I3 between the inner and outer shells, thence inwardly through the passages between the vertical vanes I0 and upwardly into the inner casing B. Y

The rotatable assembly comprising the distributing disk C, fan D, and Whizzers E and E are supported as a unit so as to rotate about the central vertical axis of the separator by the means F supported by top wall I of the outer shell A. The

supporting means F comprises a downwardly extending tubular bearing sleeve I4 formed integrally with or supported by the top Wall I of casing A and supporting an inner tubular bushing I5. A tubular vertical shaft I6 is keyed at its upper end within and supported bya driving gear or pulley I1 which is in turn supported on a thrust bearing I8 at the upper end of bushing I5. An outer casting I9 is attached to and supported by the outwardly extending collar or flange 20 at the lower end of hollow shaft I6. Casting I9 is provided with the upwardly and .inwardly extending portion 20 which has a bearing at 2I on4 the upper outer surface of bearing sleeve I4. The

"annular space 22 between member 20 and bearing sleeve i4 forms angoil well which communicates throughlower passages 23 with the outer surface of shaft I6. This shaft is provided withan outer spiral groove 24 which serves to lift oil from well 22 along the bearing surfaces between the shaft and bushing I5, this oil being discharged outwardly through thrust bearing I8 into the co1' lecting groove 25. From groove or channel 25 the oil is again discharged downwardly through a vertical passage 26 in bushing I 5 and thence back to the oil well.l Additional oil may be supplied through conduit 21 provided with oil cup 28 and communicating with the vertical passage 26.. A reversely pitched spiral groove 29 formed in bear ing 2l tends to return oil that may work up from .oil well 22, and a sealing means 38 carried by fare suitably secured at their inner ends to the lower surface of disk 33 as best shown in Fig. 2.

The number of these vanes 34 that will be used depends upon several factors such as the speed of rotation of the rotatable assembly, the diameter of the whizzer assembly, and the degree of fineness desired in the separation process. The outer end portions of these vanes are preferably beveled upwardly and inwardly as indicated at 35. Cooperating with this rotary deflector or whizzer is an annular stationary vdeilector carried by the surrounding inner wall of shell 6. This stationary deilector comprises an upwardly and inwardly extending conical shell 36 and an inwardly extend ing horizontal ring or ilange 31 which overlaps the outer end portions of the vanes 34. The beveled ends of vanes 34 are so inclined as to rotate in close proximity 'to the conical deector wall 36. This stationary deector is supported Ain any suitable manner from the adjacent wall of inner casing B, as here shown by means of a downwardly and` inwardly extending annular conical member 38 attached at its upper edge to the adjacent casing wall. As will be hereinafterpointed out, this annular wall 38 could be omitted and the conical deilector supported by a horizontally extending plate or struts. It will be noted that upward air flow is cut oif through the central portion .of the casing by the disk or plate 33, and is cut off at the outer or peripheral portion of the casing by the stationary dellector-so that tne only passage left for the upward flow of air is between the rapidly rotating whizzer blades.

The, lower whizzer E is Supported in spaced relation below the upper whizzer E by the tubular sleeve member 39 attached at its upper end to 33 of the upper whizzer and at its lower end to the disk 33' of the lower whizzer. This lower whizzer E may be in all essential respects the same as the upper whizzer E', as is also the stationary deector 38 cooperating therewith.

which extends freely downwardly through hollow 'shaft IB and which is supported at its upper end by the housing 43 carried by outer casing A and partially enclosing the driving means. The rotary assembly may be driven' in any suitable manner. In the example here shown the driving means G consists of a motor 44 suitably supported on outer casing A and connected by belt gearing 45 with drive -pulley l1 at theupper end of shaft l5. If desired, suitable change-speed gearing may be interposed between motor M and shaft i6 so 'that the speed of rotation oilthe whizzers may be Varied'as desired. In general the flneness of separation will be increased by increasing the speed of the whizzers, and vice versa.

The operation of this separator can more easily be explained by reference to Fig. 3 which shows a portion of the apparatus on a largerk scale dand in which the path of the material particles through the apparatus has been illustrated. It will be understood that the sizes of the material particles have been greatly exaggerated in order to make this showing possible.

The rather coarsely graded material 45 introduced through feed conduit 42 falls onto the rapidly rotatingdistributor disk C and is thrown outwardly by centrifugal force' through the rising air stream. Only the lighter and ner particles;

l1 are carried upwardly by the air stream created by fan D, the heaviest particles ll falling downwardly through conical shell 1 or being thrown outwardly against the wall of the inner casing and thence gravitating downwardly. This initial separation process is not sufficient to satisfactorily reject or divide out all ofthe heavier particles of the material and secure the desired grade of fineness. The air stream carrying the mixed particles 41 which are not originally rejected in the rstcentrifugal operation ilows upwardly between the rapidly rotating vanes or blades 34 of the whizzer. As soon as the heavier particles 49 in this rising air stream are caught by the revolving blades 34 they will be carried around by these blades and thrown outwardly by the centriiugalforce against the conical surface 36 of the stationary deiiector from which they are thrown downwardly to join the heavier partlcles 48 already rejected. The operation as thus far described is essentially the same as in the Cook separator already referred to in which only a single whizzer is used. The action of each of the two whizzers E and E in the present improved stream passes into a sorting space above the whizzer wherein it continues to whirl rapidly within the inner casing but is unagitated, that is there are no beater members within this space to impact the material. A centrifugal sorting action takes place within this space, the heavier particles being collected near the louter wall of the casing whereas the smaller particles remain nearer the center of the apparatus. Considering iirst the materials which are carried in suspension into the sorting space 40 between the lower and upper whizzers, this centrifugal grading operation assembles the heavier particles 50 adjacent the outer wall of the casing, whereas the flner par-ll ticles 5l are carried upwardly into the upper whizzer E. The upward forceof the air stream is diminished adjacent this pouter wall due to the overhanging stationary deiiector of the upper whizzer, and eddy currents are set up so that the heavier particles 50 settle downwardly onto the sloping shelf 3'as indicated at 52 and gradu- `ally dribble back through the lower whizzer'by means of which they are thrown against the lower surface of the stationary dilector and are directed downwardly so as to gravltate out along with the other tailings. To this material 50 that collects adjacent the outer wall of the sorting space 4B is added the heavier particles rejected by the upper whizzer E as indicated at 53. The suspended material which succeeds in passing the upper whizzer E' flows into the upper centrifugal sorting space 54 wherein the operation is substantially the same as in the Cook separator already referred to. The air stream drawn out by fan D must flow inwardly and upwardly through space i2 within the upper annular partition II- so that the comparatively heavier particles will collect at 55 within the outer comparatively yquiet portion of this sorting space, and these vparticles, 55 will settle fdownwardly and pass back lthrough whizzer E' in much the same manner as already described with relation to the lower whizzer. Only the ilnest particles are carried out by the air stream through the central upper opening I2 and thus outwardly and downwardly through annular passage i3 around the inner casing. The greater part of this fine material settles out of the air stream in the expanded 'portion 56 of this passage, the material gravitating downwardly through cone 3 and discharge outlet 4, `whereas the air stream passes inwardly between baflles l0 and thence again upwardly through the inner shell.

n might here be noted that, the sorting or giading action within the 1 unagitated centrifugal effective than the similar action within the sort- 'ing space 54 above the upper whizzer E'. This is partially due to the fact that the material is more rapidly rotated within this space due to the action oi' the whizzers, one above andthe other below this falling material. AAlso the material that is being driven downwardly by the upper whizzer E' assists in holding back the` heavier material graded out in this sorting space 40 so that .a greater percentage of this heavier material passes downwardly to and through the `lo'wer whizzer E.

The desirability of using the two separate whizzers E and E and subjecting the material to this repeated separating operation (as brley reerred to earlier in this description) may now be more clearly explained. It will be understood that the initial material to be graded or separated contains a large proportion of suiilciently iinely divided material and that a certain percentage of this tine material will inevitably be rejected along with the tailings 'in any separation process of this sort. It is desirable to hold this percentage down as muchas possible. As-

rial rejected along with suming, as in the example already considered, that the original material to be graded will pass 60% through a 300 mesh screen and that it is desirable to increase the ilneness to 99.9% through a 300 mesh screen, it might be possible to do this in a single separating operation in a single-whizzer separator, but it would be necessary to use an excessively large number of whizzer blades and rotate the whizzer at a very high speed, or both, and the percentage of une matethe tailings would be so large that the separating operation would be inefficient However, with this improved apparatus the lower whizzerE will be so proportioned that the material delivered into the central sorting zone 40 will grade about 90% through a 300 mesh screen, and in this case'the percentage of fine material rejected by the first whizzer will be relatively small. This material from the intermediate zone can then be passed through the second whizzer E and the final material carried out by the air stream reduced to a neness of 99.9% through a 300 mesh screen. Of course, this two-stage separation process could be performed by passing the materially successively through two different single-whizzer separators, or by passing the material through the same separator in two successive separation processes. It will be apparent that the present improved double-whizzer separator effects a considerable saving in installation cost and space and power required overthe use of two different separators. There is also a great saving in time over passing the material twice through the same separator. Beyond these more obvious advantages, it has been discovered that the single double-whizzer separator herein disclosed is considerably more eflicient than the two-stage process. .'Ihe reasons for this are not completely understood as yet, but it is believed that the following causes are involved in this great increase in eiciency: The sorting or grading action inthe intermediate zone 40 is much more effective than in the upper sorting zone 54. 'I'he centrifugal action in this intermediate zone is greater due to the whirling action imparted by the two whizzers, one above and the other below this sorting space. Also the downward rejection of material from the upper whizzer tends to cppose the upward 'ow of coarse material sorted to the outer portion of the zone 40, thus assisting the barrier formed by the upper stationary deflector in preventing the upward flow of coarse material. It will also be noted that if two individual separators are used in tandem (that is if the iines withdrawn from the rst separator are then reintroduced through this separator or another separator), there will be a loss of fines with the tailings from each of the two separators. In -the present double-whizzer separator the lines which are rejected along with the tailings from the upper whizzer must pass downwardly through the lower whizzer and the greater portion of these fines will be returned again to the upper whizzer and eventually carried out with the air stream. For these, and'perhaps other reasons not apparent, it has been found that the total percentage of fines rejected along with the tailingsk is much less with this improved unit separator than when the process is performed in two successive separating apparatuses. Also the output of ne material per unit of time is much greater with this improved separator than when two'singlewhizzer separators of comparative size are used.

Also there is a great saving in the power required for operating, this double-whizzer separatonas compared with that required for operating two single-whizzer separators of comparative size and capacity.

I claim:

1. In a separator, means forl causing an upward flow of air through the casing with material to be separated suspended in said air flow, and a pair .of similar separating assemblies positioned in superposed relation within the casing so as to provide an unagitated centrifugal sorting space between the assemblies, each separating assembly comprising an outer stationary annular conical deector carried by the casing wall and projecting inwardly and upwardly, and an inner rotary whizzer extending at its periphery into proximity to the conical Wall of the stationary defiector.

2. In a separator, a casing, means for causing an upward iiow of air through the casing with material to be separated suspended in said air flow, and a pair of similar separating assemblies positioned in superposed relation within the casing so as to provide an unagitated centrifugal sorting space between the assemblies, each separating assembly comprising an outer stationary annular conical deilector carried by the casing wall and projecting inwardly and upwardly, and an inner rotary whizzer comprising a central disk portion and a plurality of substantially radially projecting-vanes the outer ends of which extend into proximity to the conical wall of the stationary deector.

3- In a separator, a casing, means for causing an upward flow of air through the casing with material to be separated suspended in said air flow, and a pair of similar separating assemblies positioned in superposed relation within the casing soas to provide an unagitated centrifugal sorting space between the assemblies, each separating assembly comprising an outer stationary annular conical deflector carried by the casing wall and projecting inwardly and upwardly, and aninner rotary whizzer comprisinga central disk portion and a plurality of substantially radially projecting vanes the outer ends of which are beveled upwardly and inwardly and extendinto proximity to the conical wall of the stationary deflector.

4. In a separator, a casing, means for causing an upward flow of air through the casing with material to be separated suspended in said air flow, and a pair of similar separating assemblies positioned in superposed relation within the casing so as to provide an unagitated centrifugal sorting space between the assemblies, each separating assembly comprising an outer stationary annular conical deflector carried by the casing wall and projecting inwardly andupwardly, and an inner rotary whizzer comprising a central disk portion and a. plurality of substantially radially projecting vanes the outer ends of which are beveled upwardly and inwardly and extend into proximity tothe conical wall of the stationary deector, there being an annular partition extending inwardly from the upper end of the cas-- ing so as to provide an annular centrifugal sorting space above the upper separating assembly.

5. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having a lower conical collecting portion, there being dischargeoutlets leading separately from the two casings, a rotary assembly positioned centrally within the casings and comprising a lower distributing disk within the inner casing and an upper fan for causing an air circulation upwardly through the inner casing and then downwardly through the outer casing and fan se as to provide an unagitated centrifugal annular passage, means for feeding material to be separated onto the distributing disk, and a pair of similar separating assemblies positioned in superposed relation. between the distributor and sorting space therebetween, each separating assembly omprising cooperating rotary and stationary deectors, the rotary dei'lector being carried by the rotating assembiy andthe stationary defiector being carried by the inner casing.

6. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within.

the outer casing so as to provide an annular pasi sage between the casings, said inner casing also having a lower conical collecting pdrtion, there being discharge outlets leading separately from the two casings, a rotary assembly positioned centrally within the casings and comprising a lower distributing disk within the inner casing and an upper fan'forcausing an air circulation upwardly through the inner casing andthen downwardly through the outer casing and annular passage, means for feeding material to be separated onto the distributing disk, and a pair of similar separating assemblies positioned in superposed relation between the distributor and fan so as to provide an unagitated centrifugal sorting space therebetween, each separating assembly comprising cooperating rotary andfstationary deectors, the rotary defiector being carried by the rotatingassembly and the stationary from the two casin's, a rotary assembly positioned centrallyywithin the casings and ccmprising a lower distributing disk within the inner casing and anupper fan for vcausing anair circulation upwardly through the inner casing and then" downwardly through the outer casing and annular passage, means for feeding material to be separated onto the distributing disk,

and a pair of similar separating assemblies positioned in superposed relation between the distributor and fan so as to provide an unagitated centrifugal sorting space therebetween, eachseparating assembly comprising cooperating rotary and stationary deflectors, the rotary deector being carried by the rotatingv assembly andthe stationary deector being carried by the inner casing, there being an annular partition projecting inwardly from the upper end of the inner casing to form acentrifugal sorting space above the upper separating assembly.

8. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within theouter casing so as to provide an annular passage between the casings, said inner casing also having a lower conical collecting portion, there being discharge outlets leading separately then downwardly through the outer casing and annular passage, means for feeding material ,to be separated onto the distributing disc, and a pair of similar separating assemblies positioned in superposed relation between the distributor.

and ian so .as to provide an, unagitated centrifugal sorting space, therebetween, each separatingassembly comprising cooperating rotary and stationary deiiectors, the rotary deector being carried by the rotating assembly and the stationary deiiector being carried by the inne;` casing, each rotating delector having a central closed disklike portion and being formed with an annular series of openings outwardly oi this disk portion and adjacent the stationary deflector, there being an annular partition projecting inwardly .from the upper end of the inner casing to form a centrifugal sorting space above the upper separating assembly..

9. A separator comprising an outer casinghavying a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between th-e casings, said innercasing also having'a lower conical collecting portion, there being discharge outlets leading separately from the two casings, a rotary' assembly positioned centrally within the casings and comprising a lower distributing disk within the inner casing, an upper fan Afor causing an air circulation upwardly through the inner casing and then downwardly through the outer casing and 'annular passage, and a pair of similar rotary whizzers each provided with an annular series of passages throughthe outer portion thereof and positioned' in superposed relation within the inner casing and between the distributor and fan so as to provide van unagitated centrifugal sorting space therebetween, and a pair of inwardly and upwardly projecting annular conical stationary deilectors carried by the inner casing adjacent the wall thereof, one of these deiiectors being associated with each whizzer and overlapping .the outer portion thereof, and means i'or feeding material to be. separated onto the distributing disk.

l0. A separator comprising an outer casing having a conical lower collecting portioman inner l cov ,through the inner casing and then downwardly through the outer casing and annular passage,A anda pair of similar rotary whizzers each provided with an annular series of passagesv through the outerportlon thereof and positioned in superposed relation within the inner casing a-nd between the distributor and fan so as to provide an unagitalted centrifugal' sorting space therebetween, and a pair of inwardly and upwardly projecting annular conical stationary defiectors carried by the inner casing adjacent the wall thereof, one of these deectors being associated with each whizzer and overlapping the outer portion thereof, and means for feeding material to be separated onto the distributing disk, there being an annular partition projecting inwardly from the upper end of the inner casing between the upper whizzer and the fan.

11. A separator comprising an outer casing having a. conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having a lower conical collecting portion, there being discharge outlets leading separately from the two casings, a rotary assembly positioned centrally within the vcasings and comprising a lower distributing'disk within the inner casing,'

an upper fan for causing an air circulation upwardly through the inner casing and then downwardly through the outer `casing and annular passage, and a'pairof similar rotary whizzers each provided with an annular series of passages through the outer portion thereof and positioned in superposed relation within the inner casing and between the distributor and fan so as to provide an unagitated centrifugal sorting space therebetween, and a pair of inwardly and upwardly projecting annular conical stationary deflectors carried by the inner casing adjacent the wall thereof, one of these deilectors being assocated with each whizzer and overlapping the outerportion thereof, and means for feeding mterial to be separated onto the distributing disk, each whizzer comprising a, central disk portion and a plurality of substantially radially extending vanes projecting into proximity to the cooperating stationary deflector.

12. A separator comprising van outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the ca-sings, said inner casing also having a lower conical collecting portion, there being discharge outlets leading separately froxr the two casings, a rotary assembly positioned centrally within the casings and comprising a lower distributing disk Within the inner casing, an upper fan for causing an air circulation upwardly through the inner casing and then downwardly through the outer casing and annular passage, and a pair of similar rotary whizzers each provided with an annular series of passages through the outer portion thereof and positioned in superposed relation within the inner casing and between the distributor and fan so as to provide an unagitated' centrifugal sorting space therebetween, and a pair of inwardly and upwardly projecting annular conical stationary deflectors carried by the inner casing adjacent the wall thereof, one of these deflectors being asso ciated with each whizzer and overlapping the 'outer portion thereof, and means for feeding material to be separated onto the distributing disk, there being an annular partition projecting inwardly from the upper end of the inner casing between the upper whizzer and thefan, each whizzer comprising a central disk portionand a plurality of substantially radially extending vanes projecting into proximity to the cooperating stationary deflector.

13. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having a lower conical collecting portion, there being dischargeoutlets leading separately through the outer portion thereof and positioned in superposed relation within vthe inner` casing and between the distributorand fan so as to' provide an unagitated centrifugal sorting space therebetween, and a pair of inwardly and upwardly projecting annular conical stationary deilectors carried by the inner casing adjacent the wall thereof, one of these deflectors being associated with each whizzer and overlapping the outer portion thereof, and means for feeding material to be separated onto the distributing disk, there being an annular partition projecting inwardly from the upper end of the inner casing between the upper whizzer and the fan, each whizzer comprising a central diskportion and a plurality of substantially radially extending vanes the outer ends of which are beveled upwardly and inwardly and extend into close proximity to the adjacent conical surface of the cooperating stationary deiiector,

14. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having alower conical collecting portion, there being discharge outlets leading separately from the two casings, a rotary assembly positioned centrally within the casings and comprising a lower distributing disk within the inner casing, an upper fan for causing an air circulation upwardly through the inner casing and then downwardly through the outer casing and annular passage, and a pair of similar rotary whizzers each provided with an annular series of passages through the outer portion thereof and positioned in superposed relation within Ithe inner casing and between the distributor and fan so as to provide an unagltated centrifugal sorting space therebetween. and a pair of inwardly and upwardly projecting annular conical stationary deiiectors carried by the inner casing adjacent the wall thereof, one of these deflectors being associated with each whizzer andoverlapping the outer portion thereof, and means for feeding material to be separated onto the distributing disk, there being an annular partition projecting inwardly from the upper end of the inner casing between the upper whizzer and the fan, each whizzer comprising a central disk portion and a. plurality of substantially radially extending vanes projecting into proximity to the cooperating stationary deflector, there being an inwardly extending annular flange at the upper end of each stationary conical deector which overlies the upper surfaces of the outer portions of the vanesi 15. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between 'the casings, said inner casing `from the two casings, a lrotary assembly positionecl centrally within the casings and compris- Ling a lower distributing disk within the inner casing, an upper fan for causing an air circula- 'Z5 tion upwardly through the inner-casing and then downwardly through the outer casing and anmaterial to he separated onto the distributing dislr, there being an annular partition projecting inwardly from the upper end oi the inner casing between the upper whizzer and. the ian, each. whizser comprising a central dish portion and a plurality of substantially radially extending vanes the outer ends of which are beveled 'upwardly and inwardly and extend into close proximity to the adjacent conical surface of the cooperating stationary deector, there being an inwardly extending annular iiange at the upper end of each stationary conical deflector which overlies the upper surfaces of the outer portions of the venes.

16. In a separator, a casing, means for causingy an upward flow of air through the casing with material to be separated suspended in said air iiow, and a pair of similar separating assemblies positioned in superposed relation within the casing so as to provide an unagitated centrifugal sorting space between the assemblies, each separating assembly comprising a rotary whizzer having a central disk portion and a plurality of substantially radially projecting varies, the separatl ing assembly also comprising annular deectlng sembly.

means overlapping the outer end portions of the vanesto force the air and suspended material to pass between the vanes in a zone spaced from the casing wall,

17. In a separator, a casing, means for causing an upward ilow of air through the casing with material to be separated'suspended iu said air flow, and a pair of similar separating assemblies positioned in superposed relation within the casing so as to provide an unagltated centrifugal sorting space between the assemblies, each sepaf rating assembly comprising a rotary whizzer having a central disk portion and a plurality 'of substantially radially projecting varies, theI separating assembly also comprising annular deflecting means overlapping the outer end portions of the varies to force the air and suspended material to pass between the venes in a zone spaced from the casing wall, there being an annular partition A extending inwardly from the upper end of the casing so as to provide an annular centrifugal sorting space above the upper separating as- 18. A separator comprising an outer casing having a conical lower collecting portion, an inner casing positioned, substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having a 'lower conical collecting portion, there being` discharge outlets leading separately from the two casings, a rotary assembly positioned vsorting space therebetween, each parating assembly comprising a rotary whizzer having a central disk portion and a plurality of substantially radially projecting vanes, the separating assembly also comprising annular delecting means overlapping the outer end portions of the varies to torce the air and suspended material to pass between the varies in a zone spaced from the casing wall.

i9. A separator comprising outer casing having a conical lower collecting portion, an inner casing positioned substantially centrally within the outer casing so as to provide an annular passage between the casings, said inner casing also having a lower conical collecting portion, there being discharge outlets leading sepsrately from the two casings, a. rotary assembly positioned centrally within the casings and comprising a lower distributing disk within the inner camng and an upper ian for causing an air circulation upwardly through theinner casing and then downwardly through the outer casing and annular passage, means for feeding material to be separated onto the distributing disk, and a pair of similar separating assemblies positioned in superposed relation between the distributor and fan so as to provide an unagitated centrifugal sorting space therebetween, each separating assembly comprising a. rotary whizzer having a central disk portion and a plurality of substantially Y. 20. In a separator, a casmg open only at its upper and lower ends, means for causing an upward flow oiair through the casing with material to be separated suspended in the alr-iiow, and a pair oi similar separating assemblies posiv tioned in superposed relation. within the. casing and spaced apart to provide'an unsgitated centrifugal sorting space between the assemblies, eaclr separating assembly comprising an outer stationary annular conical deflector carried by the casingwall and projecting inwardly and upwardly, and `an inner rotary whizzer extending at its periphery into proximity to the conical wall of the stationaryi deilector; the' casing being formed with an inwardly extending annular partition at its upper end surrounding the upper opening` and providing an annular centrifugal sorting space above the upper separating asscmbly.

JOE CRI'I'ES.

. .czmi'lflglv'rrcmiA QF coR'REcTIoN.`

Patent No. $169,580. .August 15, 1959.;

h TOE CRITES.

Itis hereby certified that error appears in the printed specification of the above numbered patent requiring. correction as follows: 4*Page l, first column, line 2h, for the werd Febout" read abut; and Mumv the said Lettera Puten# shouldbe read with this correcion therei thnt the seme may conf orm to the record of the ense in the Pnnt Office.

Signed and sealed this jrddayof Getober, A. D. 1959.

Y Henry Ven Armelle,

(Se/all) Acting Comuiiasoner of Entente. 

